刘佳，1985年11月出生，汉族，陕西汉中人，计划研究员，博士生导师，国家自然科学基金委优秀青年科学基金获得者。 教育经历 （1）2008.9–2014.6, 中国科学技术大学, 地球化学, 博士 2010.9至2011.6, 在法国里尔一大物质组成与过程实验室（UMET）交流学习 （2） 2004.9–2008.6, 合肥工业大学, 资源勘查工程，学士 工作经历 （1）2020.4-现在, 浙江大学, 地球科学学院，计划研究员 （2）2018.4-2020.3, 自然资源部第二海洋研究所, 海底科学实验室, 副研究员 （3）2016.10-2018.3, 中国科学技术大学, 地球和空间科学学院, 副研究员 （4）2014.7-2016.9, 中国科学技术大学, 博士后 奖励荣誉 2020年获得国家自然科学基金委优秀青年科学基金 2020年获得第18届中国矿物岩石地球化学学会“侯德封矿物岩石地球化学青年科学家奖”

地球内部挥发分 板内玄武岩 洋中脊玄武岩

中国矿物岩石地球化学学会岩浆岩专业委员会委员 中国矿物岩石地球化学学会地幔矿物岩石地球化学专业委员会委员 中国矿物岩石地球化学学会化学地球动力学专业委员会委员

*代表通讯作者 2024年审稿中的论文 （1）J. Liu*, J.J. Zhou, Q.K. Xia, K. Shimizu, L. Larsen, T. Ushikubo, and E. Hanski. 2024. Hydrogen isotopes of high-3He/4He picrites from West Greenland: insights for a primordial water signature in the mantle. Geology, In revision. （2）Zhikang Luan, Jia Liu*, J ZhangZhou,Qunke Xia, Eero Hanski. 2024. Machine Learning unravels the protracted role of India-Eurasia collision in the uplift of the Tibetan plateau. GRL, under review. （3）Zhou, J.-J., Liu, J.*, Xia, Q.-K., Shimizu, K., Deloule, E., Ingrin, J., Kuritani, T., Gu, X.-Y., Zhu, C.-W. 2024. Origin of water in the mantle source of Emeishan large igneous province revealed by hydrogen isotope, GRL, under review. 19. Tianting Lei, Jia Liu* and Qunke Xia*. 2024. Prediction of CO2 content in mid-ocean ridge basalts via machine learning approach. Geology, Accepted. 18. Lu Wang*, Jia Liu*, Christopher J. Spencer, Sensen Wu, Anzhou Li, Chengfeng Qiu, Qi Wu, Zubing Jia, Zizhen Wang, Hao Sun, Qun-Ke Xia. 2024. The role of continental alkaline magmatism in mantle carbon outflux constrained by a machine learning analysis of zircon. Geophysical Research Letters. 51, e2023GL106847. 17. Zhou J.J., Liu J.*, Xia Q.K., Su C., Kuritani T., Hanski E. (2023). A machine learning based-approach to predict the water content of mid-Ocean ridge basalts. Geochemistry, Geophysics, Geosystems. DOI: 10.1029/2023GC010984 16. Xu Q.H., Wang L.*, Liu, J.*, Deoule E., Hanski E., Gu X.Y., Chen H., Xia Q.K. (2022). Linking the Jehol Biota evolution to the Early Cretaceous volcanism during the North China craton destruction: insights from F, Cl, S, and P. Journal of Geophysical Research: Solid Earth. https://doi.org/10.1029/2022JB024388. 15. Liu, J. *, Xia, Q. K. *, Sun, H., Hanski, E., Kuritani, T., Gu, X. Y., & Chen, H. (2022). Compositional variation of picrites in the Emeishan large igneous province modulated by water in the mantle plume. Journal of Geophysical Research: Solid Earth, 127, e2021JB023584. https://doi.org/10.1029/2021JB023584. 14. Liu, J., Tao, C.H.*, Zhou, J.P., Shimizu, K., Li, W., Liang, J., Liao, S.L., Kuritani, T., Deloule, E., Ushikubo, T., Nakagawa, M., Yang WF., Zhang, GY., Liu, YL., Zhu, CW., Sun, H., Zhou, JJ. (2022) Water enrichment in the mid-ocean ridge by recycling of mantle wedge residue. Earth and Planetary Science Letters. 584, 117455. 13. Wang Z.Z., Liu J.*, Xia Q.K, Hao Y.T, Wang Q.Y. The distribution of water in the early Cretaceous lithospheric mantle of the North China Craton and implications for its destruction, Lithos, 2020, 360-361,105412. 12. Liu J.*, Sun H., Wang Z.Z., Li W. (2019). Continuous water supply from the subducted pacific plate to the Eastern Asian big mantle wedge: New insights from the water content of late Cretaceous OIB-like basalts, Lithos, 360-361,105249. 11. Liu J.*, Hirano N., Machida S., Xia Q.K., Tao C.H., Liao S.L., Liang J., Li W., Yang W.F., Zhang G.Y., Ding T. (2020). Melting of recycled ancient crust responsible for the Gutenberg discontinuity. Nature Communications, 11,172. 10. Liu J*, Xia Q.K*, Kuritani T., Hanski E., Yu H.R. (2017). Mantle hydration and the role of water in the generation of large igneous provinces. Nature Communications. 8, 1824. 9. Tian Z. Z., Liu J*., Xia Q. K., Ingrin J., Hao Y. T., & Christophe, D. (2017). Water concentration profiles in natural mantle orthopyroxenes: A geochronometer for long annealing of xenoliths within magma. Geology, 45, 87-90. 8. Xia Q. K.*, Liu J. Kovács I., Hao Y. T., Li, P., Yang X. Z., & Sheng Y. M. (2017). Water in the upper mantle and deep crust of eastern China: Concentration, distribution and implications. National Science Review, 6,125-144. 7. Liu J.*, Wang Z. Z., Yu H. R., Xia Q. K., Deloule E., & Feng M. (2017). Dynamic contribution of recycled components from the subducted Pacific slab: Oxygen isotopic composition of the basalts from 106 Ma to 60 Ma in North China Craton. Journal of Geophysical Research: Solid Earth, 122, 988-1006. 6. Liu J., Xia Q. K*., Deloule E., Ingrin J., Chen H., & Feng M. (2015). Water content and oxygen isotopic composition of alkali basalts from the Taihang Mountains, China: recycled oceanic components in the mantle source. Journal of Petrology, 56, 681–702. 5. Liu J.*, Xia Q. K.*, Deloule E., Chen H., & Feng, M. (2015). Recycled oceanic crust and marine sediment in the source of alkali basalts in Shandong, eastern China: Evidence from magma water content and oxygen isotopes. Journal of Geophysical Research: Solid Earth. 120, 8281-8303. 4. Xia Q. K*., Liu J., Liu, S. C., Kovacs I., Feng, M., & Dang L. (2013). High water content in Mesozoic primitive basalts of the North China Craton and implications on the destruction of cratonic mantle lithosphere. Earth and Planetary Science Letters, 361, 85-97. 3. Liu S.C., Xia Q.K.*; Choi S.H., Deloule E., Li P., Liu J. Continuous supply of recycled Pacific oceanic materials in the source of Cenozoic basalts in SE China: the Zhejiang case. Contributions to Mineralogy and Petrology, 2016, 171: 0-100. 2. 俞浩然; 刘佳*; 夏群科; 顾笑龑; 王子桢; 毕垚; 宾川苦橄岩的水含量：对峨眉山大火成岩省成因的启示, 高校地质学报, 2019, 25: 24-32. 1. 夏群科*; 刘佳; 陈欢; 刘少辰; 冯敏; 大陆玄武岩原始水含量的测定及其对源区组分的制约, 岩石矿物学杂志, 2015, 34: 371-381.